JP2011501053A - Flexible self-coupling coupling assembly - Google Patents

Abstract

The autoconnect coupling assembly has first and second portions operatively connected by a hinge at a first end. The hinge desirably has first and second hinge mechanisms that operate independently of each other. The coupling assembly also includes a fastening mechanism that releasably fastens the first coupling portion to the second coupling portion at the second end. The fastening mechanism uses an extension provided in the first and second coupling parts to fasten the first and second coupling parts. The fastening mechanism has first and second locking mechanisms. The first and second locking mechanisms have a latch for fastening the first and second coupling portions. The coupling assembly also has a connection mechanism and an indicator latch.

Description

  The present invention generally relates to a coupling assembly. More particularly, the present invention relates to a flexible coupling assembly that is self-bonding and does not have a single point of failure.

  Safety when transporting or moving a fluid, such as fuel, through a conduit depends on the pressure in the conduit, damage that can be caused by fluid leaking from the conduit, and the volatility and explosive properties of the fluid, such as fuel. It becomes important. In the aircraft industry, it is critical to ensure that no fuel leaks from the fuel transfer conduit, as it can have disastrous consequences.

  It is often necessary to use multiple fuel transfer conduits to transport fuel from one location to another, for example, because the circuit must make a detour to reach the desired location. For example, in an aircraft, multiple fuel transfer conduits may be used to transport fuel from an aircraft fuel tank to an engine. Since multiple fuel transfer conduits are required to move fuel from the containment tank to the engine, a coupling is required to connect the ends of such fuel transfer conduits to each other. Couplings and other devices are designed to join fluid transfer conduits. It is important that such a coupling provides a positive seal and prevents fuel from leaking because one of the areas susceptible to leakage is the junction between the two conduits. Such couplings and other devices attempt to connect the fuel transfer conduit to minimize the risk of fuel exiting the fuel transfer conduit.

  The US Federal Aviation Administration (FAA) enforces Federal Aviation Regulations (FAR) 25 to reduce the risk of leakage. FAR 25 requires that certain couplings, such as those used to join fuel transfer conduits, incorporate two separate locking devices. By requiring two separate locking devices, the possibility of coupling failure is reduced. This is because there is no problem with the coupling even if there is a problem with only one of the locking devices. The coupling is left closed by the remaining locking device.

  However, existing couplings have a single point of failure. In other words, even if it is a non-major component, if a failure occurs in one component of the coupling, the failure occurs in the entire coupling and it is released. This can cause fluid to leak out of the conduit and cause catastrophic consequences if the fluid is fuel. Furthermore, existing couplings do not meet the requirements of FAR 25 where the coupling incorporates two separate locking devices.

  Another disadvantage is that the existing coupling does not provide an electrical connection. For example, if a lightning stroke is transmitted to the coupling through a conduit connected to the coupling, the current from the lightning stroke will pass through the coupling to the adjacent conduit and eventually to zero potential (ground, ground ) There is no route to get to. Furthermore, existing couplings can accumulate charge in the conduit due to fluid flowing through the conduit. This static charge can form a spark and can ignite inside the conduit if the conduit is transporting a flammable fluid.

  Existing couplings have the disadvantages described above and other disadvantages.

  The aforementioned disadvantages are greatly overcome by the present invention. In one aspect of the invention, a coupling is provided that does not have a single point of failure. According to one embodiment of the invention, the coupling has redundant features that eliminate a single point of failure. The present invention also provides a flexible coupling that is self-connecting and can withstand a predetermined amount of pressure and angular deformation. The self-bonding coupling has first and second coupling portions, each of the coupling portions having first and second ends. The first and second coupling portions have extended portions at each end. The first and second coupling parts are hinged at one end using the extension. According to one embodiment of the present invention, each of the extending portions has a plurality of extending portions. The extension allows the hinge to operably connect the first coupling portion and the second coupling portion. Preferably, the hinge has first and second hinge mechanisms that operate independently of each other.

  According to another embodiment of the present invention, the coupling assembly includes a fastening mechanism that fastens one end of each of the first coupling portion and the second coupling portion. The fastening mechanism desirably has first and second locking mechanisms. The first and second locking mechanisms may have latches that are operatively connected to the first and second coupling portions using extensions. According to one embodiment, the latch is operatively connected to the first and second couplings using a plurality of pins and positioned between the plurality of extensions.

  According to another embodiment of the invention, the fastening mechanism also has an indicator latch. The indicator latch desirably has a biasing mechanism that maintains the indicator latch in the unlocked position. The indicator latch remains in the locked position when the first and second coupling parts are securely fastened. In this way, the indicator latch indicates when the first and second coupling parts are securely fastened.

  According to another embodiment of the invention, the coupling assembly has a coupling mechanism. The connection mechanism can be, for example, a connection device (bond devices) or a connection wire (bond wires). The coupling device may extend from a holding mechanism provided on each side of the first and second coupling parts. According to one embodiment, the coupling devices are off-set from each other.

  The connecting wire can be substantially U-shaped and can contact the first or second portion at multiple locations. The connecting wire also has a protrusion. The protrusions can be used to provide electrical conductivity in certain applications.

  Thus, specific embodiments of the present invention have been broadly outlined so that the detailed description herein can be better understood and so that the contribution of the present invention to the prior art can be better appreciated. There are, of course, additional embodiments of the invention, which form the subject matter of the claims set forth below and appended hereto.

  In this regard, before describing at least one embodiment of the present invention in detail, the present invention is not limited in its application to the details of construction and the arrangement of components described and illustrated in the following description and drawings. Should be understood. The present invention enables embodiments in addition to the described embodiments and implementations to be performed in a variety of ways. It is also to be understood that the expressions and terms used in this application, as well as the abstract, are for illustrative purposes and should not be taken as limiting.

  Thus, those skilled in the art will appreciate that the concepts on which the present application is based can be readily utilized as a basis for designing other structures, methods, and systems to perform the multiple objectives of the present invention. It is important, therefore, that the claims be regarded as having such equivalent constructions insofar as they do not depart from the spirit and scope of the present invention.

1 is a top perspective view of a coupling assembly according to one embodiment of the present invention. FIG. FIG. 3 is a top perspective view of a coupling assembly fastening mechanism according to an embodiment of the present invention. FIG. 3 is a top perspective view of a latch of a coupling assembly according to one embodiment of the present invention. FIG. 3 is a top perspective view of a coupling assembly fastening mechanism according to an embodiment of the present invention. FIG. 3 is a top perspective view of a coupling assembly fastening mechanism according to an embodiment of the present invention. 1 is a top perspective view of a coupling assembly according to one embodiment of the present invention. FIG. 1 is a top perspective view of a coupling assembly according to one embodiment of the present invention. FIG. FIG. 3 is a top perspective view of a hinge of a coupling assembly according to one embodiment of the present invention. FIG. 3 is a top perspective view of a hinge of a coupling assembly according to one embodiment of the present invention.

  The present invention will now be described with reference to the drawings. Like reference numerals refer to like parts throughout the drawings. According to one embodiment of the present invention, a flexible self-coupling coupling is provided. Flexible self-coupling coupling provides the extra property of eliminating single points of failure.

  FIG. 1 shows a coupling 10 according to one embodiment of the present invention. The coupling 10 has a first portion 12 and a second portion 14. The first portion 12 and the second portion 14 are pivotally connected by a hinge 16 and releasably connected by a fastening mechanism 18. The fastening mechanism 18 may have a first locking mechanism 20 and a second locking mechanism 22. The first locking mechanism 20 and the second locking mechanism 22 are a second extended portion 24 provided in the first coupling portion 12 and a second portion provided in the second coupling portion 14. The extension 26 can be used to connect to the first coupling part 12 and the second coupling part 14. The first extension 24 and the second extension 26 may have passages 28 (shown in FIG. 2). The passage 28 receives a pin 30 that operably connects the first locking mechanism 20 and the second locking mechanism 22 to the first coupling portion 12 and the second coupling portion 14, respectively.

  According to one embodiment of the present invention, the first locking mechanism 20 and the second locking mechanism 22 may have a latch 32. The latch 32 is pivotally connected to the first extension 24 and the second extension 26 by one of the pins 30 at one end of the latch. A tab 34 may be provided at the other end of the latch to assist in opening the latch 32. A tab 34 may be provided at one end of the latch 32 opposite the pin 30. The latch 32 may be frictionally engaged with one end of the first extension 24 and the second extension 26. According to one embodiment of the present invention, the latch 32 may be oriented in an opposing direction to provide a tighter seal against the coupling 10. The latch 32 may also have a latch spring 36 that assists in maintaining the latch 32 in the closed position.

  The coupling 10 can also have an indicator latch 38. The indicator latch 38 may be pivotally connected around one end of the first locking mechanism 20 and the second locking mechanism 22. The indicator latch 38 is operable with respect to the first locking mechanism 20 and the second locking mechanism 22 by a pin 30 extending from the first locking mechanism 20 to the second locking mechanism 22 via the passage 28. Can be connected. According to one embodiment of the invention, the indicator latch 38 closes to the closed position only when the first locking mechanism 20 and the second locking mechanism 22 lock the coupling 10 in the closed position.

  The coupling 10 may also have a bonding mechanism 40 that can cause the coupling 10 to be self-coupling and a latch spring 42. The latch spring 42 ensures that the latch portion is engaged. The coupling 10 may also have a retention mechanism 46 that assists the coupling 10 in automatically coupling. The holding mechanism 46 may be, for example, a notch 48 provided in the first coupling part 12 and the second coupling part 14. The coupling mechanism 40 may be provided in one or more retaining mechanisms 46. According to one embodiment of the present invention, the elongated portions 44 of the coupling mechanism 40 can extend from the coupling mechanism 40 toward the inner portion of the coupling 10. The elongated portion 44 may be aligned with the elongated portion 44 of the coupling mechanism 40 provided on the opposite side of the coupling mechanism 40.

  FIG. 2 shows the fastening mechanism 18 shown in FIG. 1, but the first locking mechanism 20 and the second locking mechanism 22 are positioned such that each locking mechanism faces the same direction. Further, each of the latches 32 is provided with an independent pin 30 that is provided through each of the passages 28 in the first extension 24 and the second extension 26. It will be appreciated by those skilled in the art that even if one of the first locking mechanism 20 or the second locking mechanism 22 is defective, the coupling 10 will not be opened because the other locking mechanism is maintained in the locked position. Should be obvious. This provides extra coupling characteristics so that there is no single point of failure that opens the coupling 10. For example, if the latch 32 of the second locking mechanism 22 is opened, or if one of the pins 30 of the first locking mechanism 20 is broken, this can cause the associated locking mechanism to fail. . However, the other locking mechanism remains in the locked position because none of its constituents has malfunctioned. Accordingly, the coupling 10 is maintained in the closed position.

  A latch 32 (as shown in FIG. 3) may be provided between the extensions of the first extension 24 and the second extension 26. The latch 32 may be provided with a receiving part 50 and a fixing part 52. The receiving portion 50 can receive one of the pins 30 associated with the first locking mechanism 20 and the second locking mechanism 22, respectively. The securing portion 52 can be used to secure the latch 32 relative to other pins 30 associated with the first locking mechanism 20 and the second locking mechanism 22. The latch 32 may secure the first coupling portion 12 and the second coupling portion 14 relative to each other and may maintain the coupling 10 in the closed position.

  FIG. 4 shows a coupling 10 according to one embodiment of the present invention. The coupling 10 includes a first locking mechanism 20 and a second locking mechanism 22 that latches 32 to maintain the coupling 10 in a closed position. A plurality of pins 30 for fixing the first coupling portion 12 and the second coupling portion 14 to each other are provided. According to one embodiment, pin 30 is provided with an indicator latch receptacle 54 that can be used to receive indicator latch 38. The pin 30 of the first locking mechanism 20 and the second locking mechanism 22 provided in either the first coupling part 12 or the second coupling part 14 is one or more indicator latch locking mechanisms. Can be pivotally connected to.

  One or more indicator latch receivers 54 may be provided at the pin 30 of the first coupling part 12 and the second extension 26 of the second coupling part 14. The indicator latch 38 may have an indicator latch mounting mechanism 56 that releasably connects to the indicator latch receiver 54 at one end of the indicator latch 38 and is opposed to the indicator latch 38. It is pivotally connected to the indicator latch receiving portion 54 at the end to be connected. The indicator latch 38 may be releasably locked in the closed position when the first locking mechanism 20 and the second locking mechanism 22 are each in the closed position. Accordingly, the user can determine whether or not the coupling 10 is properly fixed. If the indicator latch 38 is not in the locked position, this means that the coupling 10 is not in the locked or closed position.

  According to one embodiment of the present invention, the indicator latch 38 may have a plurality of indicator latches 38 as shown in FIG. An indicator latch 38 may be provided for each of the first locking mechanism 20 and the second locking mechanism 22. In this way, the user can determine whether one or both of the first locking mechanism 20 and the second locking mechanism 22 are in the locked position, and therefore whether or not the coupling is in the closed position. Can be judged.

  FIG. 6 shows the coupling 10 in the closed position according to one embodiment of the present invention. The coupling 10 includes a coupling mechanism 40, for example, a coupling device having an elongated portion 44 extending from one side of the coupling 10 toward a second side of the coupling 10. ). The coupling 10 may also have a coupling mechanism 40 positioned opposite a coupling device provided on one side of the coupling 10 having an elongated portion 44 extending toward the center of the coupling 10. The coupling device 40 can be staggered to avoid interference.

  FIG. 7 shows a flexible self-coupling coupling 10 according to one embodiment of the present invention. The coupling 10 includes a first coupling part 12 and a second coupling part 14. The first coupling part 12 and the second coupling part 14 are pivotally connected by a hinge 16. The coupling 10 also has a fastening mechanism 18 having a first locking mechanism 20 and a second locking mechanism 22. The first locking mechanism 20 and the second locking mechanism 22 include a first extension 24 provided in the first coupling part 12 and a second extension 26 provided in the second coupling part 14. Is operatively connected to. The first extension 24 and the second extension 26 may have a passage 28 to which a pin 30 is provided. The latch 32 is fixed to the first coupling part 12 by a pin 30 and is engaged to the second coupling part 14 by a pin 30.

  A latch spring 36 may be provided to lock the first locking mechanism 20 and the second locking mechanism 22 in the closed position. The indicator latch 38 may be pivotally connected to the pin 30 to indicate that the first locking mechanism 20 and the second locking mechanism 22 are in the closed position when the indicator latch 38 is in the closed position. The indicator latch 38 may also have a biasing mechanism 58 that maintains the indicator latch 38 in the open position. In this way, the user can determine that the coupling is in the open position because the indicator latch 38 is in the open position.

  The coupling 10 can also have a coupling mechanism 40. The connection mechanism 40 may have a plurality of connection wires provided on one side of each of the first coupling part 12 and the second coupling part 14. According to one embodiment, the connecting wire is substantially U-shaped, and the first coupling portion is located at three locations on each side of the first coupling portion 12 and the second coupling portion 14. 12 and the second coupling part 14 are contacted. The coupling 10 can be automatically connected by a connecting wire. One of the connecting wires may extend from one side of the coupling 10 toward the other side of the coupling 10 and may have a protrusion 60. The protrusion 60 can be used to provide conductivity to a standard sealing mechanism (sleeve) that can be used with the coupling 10. A portion 64 of the connecting wire may provide an electrical connection between the two conduits joined by the coupling 10 and a standard sleeve typically used with such a coupling. This provides protection against lightning strikes and static charge accumulation, for example.

  FIG. 8 shows a hinge 16 that may be used with the flexible self-coupling coupling 10 according to the present invention. The hinge 16 may have a first hinge mechanism 62 and a second hinge mechanism 64. The first hinge mechanism 62 and the second hinge mechanism 64 desirably operate independently of each other. Therefore, if either the first hinge mechanism 62 or the second hinge mechanism 64 fails, the coupling 10 remains in the closed position because the other hinge mechanism has not failed. The hinge 16 desirably secures the hinge member 66 to each of the first coupling portion 12 and the second coupling portion 14 using the first extension 24 and the second extension 26. Thus, the first coupling portion 12 and the second coupling portion 14 of the coupling 10 are pivotably connected. Each of the first extension 24 and the second extension 26 may have a passage in which a pin is inserted and is operatively connected to the hinge member 66. In this way, when opening the coupling 10, each of the first coupling portion 12 and the second coupling portion 14 can pivot about the pin 30, thus providing the flexible coupling 10.

  FIG. 9 shows the hinge 16 for the coupling 10 according to one embodiment of the present invention. The hinge 16 can be secured to the first coupling portion 12 and the second coupling portion 14 using the first extension 24 and the second extension 26 of the coupling 10. The first extension part 24 and the second extension part 26 have a plurality of extension parts. The hinge member 66 passes through the passages 28 in the first extension 24 and the second extension 26 and uses the pins 30 extending through the passages provided in the hinge member 66 to use the first extension. It can be fixed to the existing part 24 and the second extending part 26.

  Although an example of a coupling assembly has been described in an aircraft environment, it can be appreciated that other environments may be utilized. The coupling assembly may also be useful in other industries where similar functions may be required.

  Many features and advantages of the present invention will be apparent from the detailed description, and therefore, the appended claims will symmetry all the features and advantages of the invention which are within the true spirit and scope of the invention. Is intended. Further, since those skilled in the art can readily make many modifications and variations, it is not desirable to limit the present invention to the construction and operation as illustrated and described, and thus all suitable modifications and equivalents May be within the scope of the present invention.

Claims (25)

A coupling assembly comprising:
A first coupling portion operatively connected to a second coupling portion at a first end so as to open and close the coupling assembly;
A fastening mechanism configured to fasten the first coupling portion to the second coupling portion at a second end when the coupling assembly is in the closed position;
Have
The fastening mechanism is
A first locking mechanism configured to maintain the coupling assembly in the closed position;
A second locking mechanism configured to maintain the coupling assembly in the closed position;
Having
Coupling assembly. A first indicator latch;
The first indicator latch is configured to close to a locked position only when the first locking mechanism secures the first coupling portion to the second coupling portion;
The coupling assembly according to claim 1. The first indicator latch has a biasing mechanism;
The biasing mechanism is configured to maintain the first indicator latch in the unlocked position until the first indicator latch is closed to the locked position.
The coupling assembly according to claim 2. The bias mechanism has one of a sheet metal latch spring and a torsion spring.
The coupling assembly according to claim 3. A second indicator latch;
The second indicator latch is configured to close to a locked position only when the fastening mechanism secures the first coupling portion to the second coupling portion;
The coupling assembly according to claim 2. The first locking mechanism and the second locking mechanism operate independently of each other;
The coupling assembly according to claim 1. The first coupling part has a first extension part, and the second coupling part has a second extension part,
The coupling assembly according to claim 1. Either the first extension part or the second extension part has a plurality of extension parts.
The coupling assembly according to claim 7. The first locking mechanism includes a first latch operably connected between one of the first extensions and one of the second extensions;
The coupling assembly according to claim 1. The first latch is operably connected to one of the first extension and the second extension using a pin.
The coupling assembly according to claim 9. The second locking mechanism includes a second latch operatively connected between one of the first extensions and one of the second extensions;
The coupling assembly according to claim 1. The second latch is operatively connected to one of the first extension and the second extension using a pin.
The coupling assembly according to claim 11. One of the first locking mechanism and the second locking mechanism has a spring.
The coupling assembly according to claim 1. A coupling mechanism;
The coupling mechanism is configured to couple the coupling assembly to a device;
The coupling assembly according to claim 1. The coupling mechanism has one of a coupling device and a coupling wire.
The coupling assembly according to claim 14. The connecting wire contacts either the first coupling part or the second coupling part at a plurality of locations.
The coupling assembly according to claim 15. The connecting wire has a protrusion.
The coupling assembly according to claim 15. Each of the first coupling portion and the second coupling portion has a holding mechanism with respect to the coupling device.
The coupling assembly according to claim 15. The connecting device has a plurality of connecting devices;
Each of the plurality of coupling devices extends toward one another from one side of the first coupling part and the second coupling part.
The coupling assembly according to claim 15. The plurality of coupling devices are alternated;
The coupling assembly of claim 19. The first coupling part and the second coupling part are operatively connected using a hinge;
The coupling assembly according to claim 1. The hinge has a first hinge mechanism and a second hinge mechanism.
The coupling assembly according to claim 21. The first hinge mechanism and the second hinge mechanism operate independently of each other;
23. A coupling assembly according to claim 22. The first hinge mechanism and the second hinge mechanism may use the first coupling part and the second coupling part by using an extension part provided on the first coupling part and the second coupling part. Operatively connected to the second coupling portion;
23. A coupling assembly according to claim 22. Each of the extending portions has a plurality of extending portions.
25. A coupling assembly according to claim 24.

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